JPH0676390U - Wiping cloth manufacturing equipment - Google Patents

Abstract

(57) [Summary] [Purpose] To provide a uniform cloth. [Construction] A conveyor for transferring a long sheet-like laminate comprising a stack of paper sheets made of a large number of pulp fibers on one side of a long-fiber web in which hydrophobic and thermoplastic long fibers are accumulated, and the laminate. In a manufacturing apparatus for a wiping cloth having a device for applying a high-pressure water column flow so as to penetrate from the paper sheet side to the long fiber web side, just above the device for applying a high-pressure water column flow,
A water spray device including flat spray nozzles arranged in rows in the width direction of the long sheet-shaped laminate is provided. [Effect] Pulp fibers that compose a paper sheet are scattered in the air by the high-pressure water column flow, but the fibers are prevented from adhering to the high-pressure water column flow treatment device, and as a result, a uniform cloth without white spots is formed. Is obtained.

Description

[Detailed description of the device]

[0001]

[Industrial applications]

 The present invention relates to a manufacturing apparatus for improving the appearance of a useful wipe cloth such as a disposable hand wipe, a wet tissue, a wiper, and a disposable rag.

[0002]

[Prior art]

 2. Description of the Related Art Conventionally, as a wipe cloth such as a disposable hand wipe, a dry pulp sheet in which pulp fibers are bulky accumulated and soaked with water or a chemical is used. However, the dry pulp sheet has a drawback that it has a low wet strength after being impregnated with water or chemicals, and is easily broken during use.

On the other hand, there is also used a nonwoven fabric in which rayon fibers, which are hydrophilic fibers, are accumulated, and then the rayon fibers are bonded to each other with a rubber-based binder soaked with water or the like. Although this wiping cloth has a high wetting strength because the rayon fibers are bonded to each other, it contains a rubber binder and has a strange odor. There was a drawback that the feeling of using the cloth was bad. For this reason, it has been attempted to use a non-woven fabric in which rayon fibers are bonded to each other without using a rubber binder. To entangle the rayon fibers with each other, it is conceivable to apply a high-pressure water column flow to the web in which the rayon fibers are accumulated. However, since rayon fiber is excellent in hydrophilicity, it has a fatal drawback that when it is used as a wiping cloth, it absorbs water well and swells, resulting in extremely low rigidity.

Therefore, as a result of conducting research to overcome the above-mentioned drawbacks, the present applicant has laminated a long fiber web made of hydrophobic long fibers and a paper sheet made of pulp fibers, and We have found that the wiping cloth obtained by entanglement of long fibers and pulp fibers by applying a high pressure water column flow from the paper sheet side to the long fiber web side does not have the above-mentioned drawbacks. I went. (Japanese Patent Application No. 4-89650 and Japanese Patent Application No. 4-194760). However, even with the above-mentioned wiping cloth, there were still some difficulties to be solved. That is, when a paper sheet is laminated on the surface of a long fiber non-woven fabric and a high pressure water column flow is applied to the laminate so as to penetrate from the paper sheet side of the laminate to the long fiber non-woven fabric side, the paper sheet is significantly destroyed. As a result, the pulp fibers that make up the paper sheet are scattered in the air, and the pulp fibers may adhere to the side and bottom surfaces of the high-pressure water column device. The pulp fibers adhering to the high-pressure water column device are accumulated and fall on the laminate to form white spots, which causes a problem that only a non-uniform wipe can be obtained.

[0005]

[Problems to be solved by the device]

 In view of the above situation, the object of the present invention is to disperse the pulp fibers constituting the paper sheet even when the paper sheet and the long fiber web are laminated to give a high-pressure water column flow, and the high-pressure water column flow is generated. It is an object of the present invention to provide an improved device which can obtain a uniform wipe without sticking to the side or bottom of the device and having no white spots.

[0006]

[Means for Solving the Problems]

 The purpose of the above is to fabricate a wiping cloth according to the present invention, that is, a long fiber web having a large number of pulp fibers laminated on one side of a long web of hydrophobic and thermoplastic long fibers. In a manufacturing apparatus for a wiping cloth, which comprises a conveyor for transferring the long sheet-like laminate and a device for applying a high-pressure water column flow to the paper sheet side of the long sheet-like laminate being transferred by the conveyor, Manufacture of a wiping cloth characterized in that a water spray device comprising a plurality of flat spray nozzles arranged in a row in the width direction of a long sheet-like laminate is provided directly above the flow treatment device. Achieved by the device.

In the practice of the present invention, a long fiber web is used in which hydrophobic and thermoplastic long fibers are laminated. For example, such a long fiber web can be obtained by melt spinning a hydrophobic and thermoplastic resin to obtain long fibers, and depositing the long fibers on a collecting conveyor. Here, as the long fibers, for example, polyolefin long fibers, polyester long fibers, polyamide long fibers, polyacrylic acid ester long fibers and the like can be used.

The fineness of the long fibers is preferably 1 to 4 denier. If the fineness of the long fibers exceeds 4 denier, the flexibility of the long fiber web decreases, and the feeling of use when used as a wiping cloth tends to decrease. On the other hand, when the fineness of the long fibers is less than 1 denier, strict conditions are required for producing the long fibers, which makes it difficult to efficiently produce the long fibers and thus the long fiber web at a high speed.

The basis weight of the long fiber web is 5 to 30 g / m 2.²Is preferred. Especially 5 to 20 g / m ² Is most preferred. The basis weight of the long fiber web is 30 g / m²If it exceeds, even if a paper sheet is laminated on one side of the long fiber web and a high-pressure water flow is applied from the paper sheet side to the long fiber web side, the pulp fibers that make up the paper sheet will not Almost no movement to the back surface (paper sheet and non-laminated surface) of the sheet, and difference in water absorption in the thickness direction easily occurs. On the contrary, the basis weight of the long fiber web is 5 g / m.²If it is less than the above range, the morphological stability of the long fiber web tends to be low, and the wet strength of the obtained wiping cloth tends to be low. Furthermore, when the gap between the long fibers becomes large and the high pressure water column flow is applied, the pulp fibers flow out from the gap, and when the high pressure water column flow after use is recovered, the pulp fibers in it are recovered. May be mixed in a large amount.

The long fiber web used in the practice of the present invention may be a so-called long fiber non-woven fabric in which the long fibers are self-bonded to each other, or a fleece that is not bonded between the long fibers. It may be a long fiber fleece. In particular, it is preferable to use the former long-fiber non-woven fabric in which a large number of point-welded portions in which long fibers are self-welded are distributed in a scattered manner. The reason for this is that since the long fibers have point fusion parts that are self-fusing to each other, the morphological stability is excellent, and in the parts other than the point fusion parts, the long fibers are self-fusing. This is because, since they are collected in a free state, they are excellent in flexibility and easily entangled with pulp fibers.

A paper sheet is laminated on one side of the long fiber web prepared as described above. This paper sheet is composed of numerous pulp fibers. As the paper sheet, any conventionally known one can be used. The basis weight of the paper sheet is also arbitrary and is not particularly limited, but a paper sheet having a basis weight of 10 to 80 g / m ² measured by the method described in JIS P 8124 is particularly preferable. When the basis weight of the paper sheet is less than 10 g / m ² , the absolute amount of pulp fibers is small, and it tends to be difficult to give sufficient absorbency and water retention to the obtained wipe. On the other hand, when the basis weight of the paper sheet exceeds 80 g / m ² , the basis weight of the obtained wiping cloth becomes too large, and the flexibility of the wiping cloth tends to decrease.

The pulp fibers constituting the paper sheet include unbleached pulp fibers or bleached pulp fibers obtained by cooking softwood and hardwood wood by the kraft method, sulfite method, soda method, polysulfide method, etc., or ground pulp fibers, chemi-mechanical Mechanical pulp fibers such as pulp fibers and thermomechanical pulp fibers can be used alone or in combination. When mixed and used, the weight mixing ratio of the softwood pulp fiber and the hardwood pulp fiber is preferably softwood pulp resin / hardwood pulp resin = 100 to 20/0 to 80, more preferably 100 to 40 /. It is in the range of 0 to 60. If the hardwood pulp content exceeds 80%, not only the amount of pulp lost due to high-pressure water column flow increases, but also the flexibility of the sheet after entanglement tends to decrease.

The density of the paper sheet used in the practice of the present invention (measured by the method shown in JIS P 8118) is preferably 0.6 g / cm ³ or less. The density of the paper sheet is 0. If it exceeds 6 g / cm ³ , the movement of pulp fibers is suppressed when the high pressure water column flow is applied from above the paper sheet, and the entanglement between the long fibers and the pulp fibers tends to be insufficient, After the entanglement, the flexibility of the sheet tends to decrease.

This paper sheet is laminated on one side of a long fiber web prepared in advance. At this time, the ratio of the basis weight of the long fiber web and the basis weight of the paper sheet (measured by the method shown in JIS P 8124) is long fiber web: paper sheet = 1: 1 to 1:19. It is preferable to do so. When the long fiber web: paper sheet is less than 1: 1, the amount of pulp fibers is relatively small with respect to the amount of long fibers, and the absorbability and water retention of the obtained wiping cloth tend to be lowered. In addition, since the amount of inexpensive pulp fiber is smaller than that of long fiber, the obtained wiping cloth itself becomes expensive. On the other hand, when the long fiber web: paper sheet = 1: 19 is exceeded and the basis weight of the paper sheet becomes heavier, all of the pulp fibers constituting the paper sheet become hard to be entangled with the long fibers, which is obtained. When the wiping cloth is used after being moistened, the pulp fibers tend to fall off easily.

After laminating a paper sheet on one side of a long fiber web, the resulting long laminate is placed on a transfer conveyor 4 made of a water permeable material such as wire mesh, as shown in FIG. Then, the high-pressure water column flow is applied from the paper sheet side of the long laminate toward the long fiber web side. That is, the high pressure water column flow is applied so that the high pressure water column flow penetrates from the paper sheet side of the laminate to the long fiber web side. This high-pressure water column flow can be obtained by ejecting water at high pressure through a fine diameter nozzle hole of a high-pressure water column flow treatment device as shown in FIG. For example, it can be obtained by jetting water at a pressure of about ²⁰ to 150 kg / cm ² through a nozzle hole having a hole diameter of about 0.01 to 0.3 mm.

When this high-pressure water column flow is applied to the laminate, the high-pressure water column flow collides with the paper sheet. Then, the paper sheet first adheres to the long fiber web, and in this adhered state, the paper sheet is broken, and the pulp fibers constituting the paper sheet are isolated, and the pulp fiber is deformed such as bent or twisted. And at the same time give sufficient kinetic energy to the pulp fiber to cause random motion in the pulp fiber. As a result, due to these composite operations, the pulp fibers and the long fibers in the long fiber web are entangled with each other, and the pulp fibers also entangle the long fibers with each other.

In the present invention, water is jetted from directly above the high-pressure water column flow treatment device to an elongated region that extends in the width direction and covers the device. When a high-pressure water column flow is applied to the laminate, the paper sheet is broken, and some of the pulp fibers that make up the paper sheet are scattered in the air and tend to adhere to the side and bottom surfaces of the high-pressure water column treatment device. By injecting water from directly above the high pressure water column flow treatment apparatus as described above, the fibers are prevented from adhering to the apparatus and the fibers once attached are washed off.

The device for injecting water is not particularly limited as long as it can prevent the adhesion of pulp fibers and can wash off the adhered pulp fibers. For example, as shown in FIG. 2, a spray device having a plurality of flat spray type nozzles arranged in a row in the width direction of the long laminate is preferable. The flat spray nozzle thus arranged can spray or spray water evenly in the width direction, and thus can prevent adhesion and washing off of fibers with a minimum amount of water. In addition to the flat spray nozzle, a device that overflows the water from the pan in a curtain shape is conceivable, but in this case, a large amount of water is required to make uniform running water. Therefore, a water pool is formed on the laminate sheet, and the high pressure water column flow acts on this pool, resulting in energy loss, and it is not possible to obtain a wiping cloth in which pulp fibers and long fibers are sufficiently entangled.

In other words, it is essential to spray or spray water on the region extending in the width direction covering the high-pressure water column flow treatment device, but it is desirable that the spray region is as narrow as possible. This is because not only the prevention of adhesion of scattered fibers is achieved with the minimum amount of water, but also the entanglement effect of fibers due to high-pressure water column flow is not hindered. As described above, it consists of a plurality of flat spray nozzles arranged in a row in the width direction of the long laminate, and the spray areas are arranged so that the elongated spray regions of the individual spray nozzles coincide with the width direction. With the spray device, a uniform spray effect can be obtained with a minimum amount of water.

In the case of the flat spray nozzle used in the present invention, the angle at which water is sprayed (spray angle) is preferably 50 to 130 degrees. Most preferably, it is 80 to 110 degrees. If the spray angle is less than 50 degrees, a problem arises in that a large number of spray nozzles must be installed for one row of high pressure water column flow device. On the contrary, if the spray angle exceeds 130 degrees, it becomes difficult to spray water uniformly. Further, the flow rate of spraying water is preferably 0.3 to 4 liters / min per nozzle. If the flow rate is less than 0.3 liters / min, the flow rate is too low to inject water evenly, and there is a portion that is not injected into the high pressure water column flow treatment device. The problem arises that the fibers adhere. On the contrary, when the flow rate exceeds 4 liters / min, excess water falls on the laminated sheet, and when the high-pressure water column flow is applied, part of the energy of the high-pressure water column flow is used to repel this water. Therefore, the kinetic energy cannot be sufficiently applied to the pulp fiber, and as a result, it becomes difficult for the pulp fiber and the long fiber to be entangled with each other. Further, as shown in FIG. 1, it is important to adjust the height and the number of spray nozzles to be installed so that the water is sprayed evenly just above the high pressure water column flow device.

The wiping cloth obtained as described above is one in which pulp fibers and long fibers are uniformly entangled and integrated, and has a uniform texture without white spots. If desired, a lubricant such as water or propylene glycol, an antibacterial agent such as alcohols or benzoic acid esters, an antifungal agent, a chemical agent such as a fragrance, etc. can be added to the wiping cloth. Used as a disposable hand wipe, wet tissue, wiper, disposable rag, etc.

[0022]

【Example】

Example 1 A long-fiber non-woven fabric was prepared in which polypropylene long-fibers were accumulated and which had a large number of spot-fused parts in which the polypropylene long-fibers were self-melt-adhered. The fineness of the long fibers constituting this long-fiber nonwoven fabric was 2.5 denier, and the basis weight of the long-fiber nonwoven fabric was 15 g / m ² . A paper sheet obtained by wet papermaking using bleached softwood kraft pulp was laminated on one side of this long-fiber nonwoven fabric. This paper sheet had a basis weight of 40 g / m ² measured by the method specified in JIS P 8124. Then, the paper sheet was placed on the upper side and the long fiber non-woven fabric was placed on the lower side, and the sheet was placed on a transfer conveyer formed of a wire mesh. Next, while transporting this long sheet-like laminate at a speed of 25 m / min, using a high-pressure water column flow treatment device in which nozzle holes having a hole diameter of 0.15 mm are arranged in a straight line at intervals of 1 mm, 50 kg / cm ² The high pressure water column flow was ejected by the water pressure of, and the high pressure water column flow was applied to the surface of the paper sheet.

Further, just above the high-pressure water column flow treatment device, a plurality of flat spray nozzles having a spray angle of 90 degrees are arranged in a row so that water is sprayed uniformly without overlapping individual spray regions in the width direction. A spray device was installed. The position of the spray nozzle was 10 cm higher than the upper surface of the high-pressure water column flow treatment device. From such a spray device, water was sprayed at a rate of 1 liter / min per flat spray nozzle. As described above, the pulp fiber forming the paper sheet and the long fiber forming the long fiber non-woven fabric were entangled with each other to obtain a composite sheet in which both were integrated.

Example 2 A composite sheet was obtained in the same manner as in Example 1 except that a flat spray nozzle with an injection angle of 90 degrees was used instead of a flat spray nozzle with an injection angle of 90 degrees.

Example 3 A composite sheet was obtained in the same manner as in Example 1 except that the spray nozzles were installed so that the sprayed regions of water sprayed from the adjacent spray nozzles were overlapped by ½ in the width direction. .

Comparative Example 1 A composite sheet was obtained in the same manner as in Example 1 except that an air jet nozzle was used instead of the water jet spray nozzle.

Comparative Example 2 A composite sheet was obtained in the same manner as in Example 1 except that an apparatus for causing water to overflow from the pan onto the curtain was used instead of the water jet spray nozzle. At this time, the amount of water overflowed from the pan was 60 liters / min.

The quality of the wipes according to Examples 1 to 3 and Comparative Examples 1 and 2 was evaluated. The results are shown in Table 1.

[Table 1]

The evaluation methods of appearance, texture, adhesive strength, etc. in Table 1 are as follows. (1) Appearance (texture): The appearance (texture) of the sample, which was visually evaluated by 20 monitors, was evaluated on a scale of 5 shown in Table 2, and an average value was obtained. (2) Texture: Softness was judged by a tactile test by 20 monitors. The test method was performed by observing the tactile sensation of grasping the sample with fingers, evaluating the sample in five levels shown in Table 2, and determining the average value. (3) Adhesive strength: Adhesive strength was judged by a sensory test by 20 monitors. For the test, the sample was picked from the side of the paper sheet with tweezers, evaluated in five stages shown in Table 2, and the average value was obtained.

[0030]

[Table 2]

As is clear from the above results, the wiping cloths obtained in Examples 1 to 3 were superior in appearance, texture, and adhesive strength to the wiping cloths obtained in Comparative Examples 1 and 2. It is a thing. In Comparative Example 1, when the high-pressure water column flow was applied, the pulp fibers adhered to the side surface and the bottom surface of the high-pressure water column flow device, and the lumps of pulp fibers dropped, resulting in white spots and poor formation. there were. Further, in Comparative Example 2, the amount of water was so large that water could be accumulated on the laminated sheet during the production of the wiping cloth, and the high pressure water column flow acted on this water reservoir, resulting in energy loss, and the pulp fibers and long fibers. No wipes were obtained with fully entangled fibers.

[0032]

[Action and effect of the device]

 As described above, according to the present invention, when a paper sheet made of pulp fibers is laminated on the surface of a long fiber web and a high-pressure water column flow is applied to the laminate, the pressure of the high-pressure water column flow is applied. It is possible to prevent the pulp fibers constituting the paper sheet from scattering and adhering to the side surface or the bottom surface of the high-pressure water column flow treatment device, or to wash away the adhering fibers. As a result, it is possible to prevent the pulp fiber lumps deposited and accumulated on the high-pressure water column flow treatment device from falling onto the laminated sheet to form white spots, which would reduce the texture of the obtained wiped cloth. Furthermore, only a minimum amount of water needs to be jetted from the water jet nozzle, and since water does not accumulate on the sheet-shaped laminate, the energy loss of the high pressure water column flow is small. Therefore, the pulp fibers constituting the paper sheet are sufficiently isolated and uniformly entangled with the long fibers, and at the same time, it is possible to obtain a uniform cloth without white spots and an excellent wiping cloth.

[Brief description of drawings]

FIG. 1 is a perspective view schematically showing an example of a wiping cloth manufacturing apparatus according to the present invention.

FIG. 2 is a diagram schematically showing an ejection region of a fluid ejected by a flat spray nozzle.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Flat spray nozzle 2 High pressure water column flow treatment device 3 Sheet-like laminate 4 Perforated conveyor for sheet-like laminate transfer 5 Fluid injection area by flat spray nozzle

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[Procedure amendment]

[Submission date] December 28, 1993

[Procedure Amendment 1]

[Document name to be corrected] Drawing

[Correction target item name] All drawings

[Correction method] Change

[Correction content]

[Figure 1]

[Fig. 2]

Continuation of front page (51) Int.Cl. ⁵ Identification code Office reference number FI Technical display location D04H 3/10 B 7199-3B D21H 27/30

Claims (1)

[Scope of utility model registration request] 1. A conveyer for transferring a long sheet-like laminate, which is obtained by laminating a paper sheet made of a large number of pulp fibers on one surface of a long-fiber web in which hydrophobic and thermoplastic long-woven fabrics are accumulated, and In a wiping cloth manufacturing apparatus having a device for applying a high-pressure water column flow to the paper sheet side of a long sheet-like laminate being transferred by a conveyor, a long sheet-like lamination process is provided directly above the high-pressure water column flow treatment device. An apparatus for manufacturing a wiping cloth, characterized in that a water spray device comprising a plurality of flat spray nozzles arranged in a row in the width direction of the object is provided.